this is because of air resistance which increases with surface area of feather. however if there is no air resistance (only vacuum) both feather and ball will fall together.
If you travel less distance in the same time, you are traveling slower.
if the parachute is wider there will be more air resistance which slows things down and if there are holes the air can pass through which decreases air resistance. so the wider it is the slower it is.the lighter it is the slower it is
That depends how fast you're going. If you're traveling at an average 60 kph, you'll cover 40 km in 40 minutes. Faster, more distance. Slower, less distance.
Less. Think about it. Why might you run to catch a bus or a ball?
Does... not... compute... Too many missing variables, or just a poorly written question.
A feather falls slower than a brick because of air resistance. The larger surface area of the feather allows more air resistance to act against it, slowing down its fall. The brick is denser and has a smaller surface area, so it falls faster due to less air resistance.
A feather falls slower than a marble due to air resistance or drag. The light and flat shape of the feather encounters more air resistance, which slows down its fall compared to the denser and more compact marble that falls faster.
Air resistance.
stick to something immovable with glue.
The greatest velocity any object can have on earth is it's terminal velocity. That means when the force of gravity is eventually overcome by the force of air resistance of the falling object. An example of this would be that a falling feather reaches its terminal velocity much quicker (and therefore falls much slower) than something that is more dense and aerodynamic, such as a bowling ball or a baby.
You can make a feather drop slower than a marble by increasing air resistance. This can be achieved by attaching a larger surface area to the feather like a parachute, which will increase the drag force acting on the feather as it falls. Additionally, reducing the weight of the feather compared to the marble will also contribute to its slower descent.
In a vacuum, there is no air resistance to slow down the motion of objects. Both the feather and the elephant would fall at the same rate due to gravity, as there is no force acting against their downward acceleration. This is why they would fall at the same time in a vacuum, regardless of their size or weight.
no unless in a totally controlled condition because a feather falls slower than a brick air resistance and many other factors are taken into affect it can also depend on the weight of the hat, and the angle of the hat when dropped.
In a vacuum. like in outer space, all substances fall at the same rate. Here on earth, the rate of falling is influenced by air resistance. A feather has 'way more air resistance than a ball of steel, for example, so falls slower.
Yes, objects will fall slower on an inclined surface compared to falling vertically. This is due to the gravitational force being partially opposed by the normal force of the incline, which reduces the acceleration of the falling object.
frition force act on it
Air resistance is the force that opposes the motion of an object moving through the air, such as a skydiver falling through the sky or a ball thrown through the air. Gravitational force is the force of attraction between two objects with mass, like the force that keeps planets in orbit around the sun or objects from floating in space.